Using the Spectrum Analyzer and the Signal generator, a network
analyzer of sorts can be built. This functionality is
provided by the network analyzer code. Gain can be measured
over frequency. There is a cal mode that measures the loss and
frequency of the cable (or signal generator). The compensation using
that cal is not complete yet.

The 16555 code will extract the data and configuration from the
analyzer. There is a parser that parses both of these data structures.
I never found full docs for the config data, so I reverse
engineered it to find out which label goes with which bit(s).

I also recently added code that will interface with the 16534/16532
2/1GS/s scope cards. I have two each of these and wrote the code to
syncronize the data between the '34 and the '32 and generates plots via
GNU plot.

This parser also generates a file compatible with la2vcd2.
The 0.5
version of la2vcd2 contains a couple fatal bugs, has a library, and I've added a project here on
sourceforge to support it: la2vcd2.
Here is an example of how to split
traces using la2vcd2.

It is a little clunky, but it does work. The 16555A code now dumps
directly to a vcd file.

Waveform viewers that work well with the vcd format are GTKWave and
Dinotrace,
but the latter has not been tested.

The 16531 and 2440 code pulls waveforms off of the each instrument and
will generate gnuplot files so the data can be viewed vi gnuplot, or
generates png images. Here is one screenshot: